AD7302 View Datasheet(PDF) - Analog Devices

Part Name

Description

Manufacturer

AD7302

2.7 V to 5.5 V, Parallel Input Dual Voltage Output 8-Bit DAC

Analog Devices 

AD7302

APPLICATIONS

Bipolar Operation Using the AD7302

The AD7302 has been designed for single supply operation,

but bipolar operation is achievable using the circuit shown in

Figure 32. The circuit shown has been configured to achieve an

output voltage range of –5 V < VO < +5 V. Rail-to-rail operation

at the amplifier output is achievable using an AD820 or OP295

as the output amplifier.

The output voltage for any input code can be calculated as

follows:

VO = [(1+R4/R3) × (R2/(R1+R2) × (2 × VREF × D/256)] – R4 × VREF/R3

where

␣ ␣ D is the decimal equivalent of the code loaded to the DAC

and

␣ ␣ VREF is the reference voltage input.

With VREF = 2.5 V, R1 = R3 = 10␣ kΩ and R2 = R4 = 20 kΩ and

VDD = 5␣ V.

VOUT = (10 × D/256) – 5 V

VDD = 5V

0.1µF 10µF

R4

20kΩ

R3

+5V

10kΩ

AD820/

±5V

VIN

VDD

OP295

EXT REF

VOUT

REF IN

–5V

GND

0.1µF

AD7302 VOUTA

AD780/REF192

WITH VDD = 5V

OR

AD589 WITH VDD = 3V

AGND DGND

R1

10kΩ

R2

20kΩ

Figure 32. Bipolar Operation Using the AD7302

Decoding Multiple AD7302 in a System

The CS pin on the AD7302 can be used in applications to

decode a number of DACs. In this application all DACs in the

system receive the same input data, but only the CS to one of

the DACs will be active at any one time allowing access to two

channels in the system. The 74HC139 is used as a two-to-four

line decoder to address any of the DACs in the system. To

prevent timing errors from occurring, the enable input should

be brought to its inactive state while the coded address inputs are

changing state. Figure 33 shows a diagram of a typical setup for

decoding multiple AD7302 devices in a system. The built-in

power-on reset circuit on the AD7302 ensures that the outputs

of all DACs in the system power up with zero volts on their

outputs.

DATA BUS

ENABLE

CODED

ADDRESS

VDD

1

VCC

1Y0

1A

1B

1Y1

1Y2

74HC139

1Y3

DGND

AD7302

D0

D8

AD7302

D0

D8

AD7302

D0

D8

AD7302

D0

D8

VOUTA

VOUTB

VOUTA

VOUTB

VOUTA

VOUTB

VOUTA

VOUTB

Figure 33. Decoding Multiple AD7302 DACs in a System

AD7302 As a Digitally Programmable Window Detector

A digitally programmable upper/lower limit detector using the

two DACs in the AD7302 is shown in Figure 34. The upper

and lower limits for the test are loaded to DACs A and B, which

in turn set the limits on the CMP04. If a signal at the VIN input

is not within the programmed window an LED will indicate the

fail condition.

+5V

0.1µF

10µF

VIN

1k

1k

FAIL

PASS

DVDD

VDD REFIN

PD

AD7302

D7

D0

VOUTA

A/B

CS

VOUTB

WR

CLR

LDAC

DGND AGND

PASS/FAIL

1/6 74HC05

1/2 CMP04

Figure 34. Programmable Window Detector

REV. 0

–13–

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